A document scanning system includes a preview sensor that is dedicated to document previewing and distinct from any other sensor that is involved in the document scanning process. The preview sensor is preferably a two-dimensional sensor array that captures the outline of an entire document in parallel. The captured document outline is previewed on a display device relative to an actual image area that is defined by the scanning system. In an enhanced embodiment of the scanning system, the preview sensor captures an image that is printed on the document in addition to the outline of the document, so that the image of the document is also previewed relative to the image area. Providing a dedicated preview sensor that captures document position and image data in parallel enables real-time display of a document relative to the image area.

Patent
   6466302
Priority
Apr 26 1999
Filed
Oct 10 2000
Issued
Oct 15 2002
Expiry
Jul 08 2019

TERM.DISCL.
Extension
73 days
Assg.orig
Entity
Large
13
10
EXPIRED
1. A document scanning system for scanning an image from a document comprising:
means for generating an electronic copy of said document image, said electronic copy generating means including a document scanning surface; and
means, in optical contact with said document scanning surface, for previewing a position of said document relative to said document scanning surface, said previewing means including an electronic preview sensor that is dedicated to document previewing and a display device that displays said position of said document relative to said document scanning surface in at least partial response to electrical signals from said electronic preview sensor, said electronic preview sensor including rows and columns of discrete sensor elements.
9. A document scanning system for scanning an image from a document comprising:
a document scanning surface, said document scanning surface being transparent such that said document image is visible through said document scanning surface when said document is in contact with said document scanning surface;
a scanner, operatively associated with said document scanning surface, said scanner being enabled to generate an electronic copy of at least a portion of said document image, said scanner having a defined image area associated with each scan operation, said scanner including a linear photosensor array that is mounted to scan said defined image area associated with each said scan operation; and
an electronic preview system, operatively associated with said document scanning surface, said electronic preview system including a dedicated preview sensor connected to receive reflected light from said document and to generate electrical signals that are responsive to said reflected light, said electronic preview system further including a display device connected such that for each said scan operation said display device receives electrical signals from said scanner that represent said defined image area and receives said electrical signals from said dedicated preview sensor that represent a position of said document relative to said defined image area.
19. A system for previewing and scanning a document image comprising:
a document scanner system having a scanning surface, a scanner sensor and a light source that are utilized to create an electronic image of said document image when a document containing said document image is located on said scanning surface, said scanner sensor being a row of discrete sensor elements which convert light into electrical signals, said document scanner system having an image area representing an area on said scanning surface that is scanned in a particular scanning operation;
a document preview system optically aligned relative to said scanning surface to detect light therefrom, said document preview system having a dedicated preview sensor that is distinct from said scanner sensor, preview sensor optics connected to direct light from said document image to said preview sensor, and a display device, said dedicated preview sensor including a two-dimensional sensor array that detects said document image from the entire area of said document, said sensor array including rows and columns for discrete sensor elements which convert light into electrical signals; and
means, operatively associated with said document scanner system and document preview system, for generating display signals representing a position of said document image relative to said image area for said particular scanning operation.
2. The document scanning system of claim 1 wherein said position previewing means includes means for previewing said document image relative to said document scanning surface in addition to previewing said position of said document.
3. The document scanning system of claim 2 wherein said electronic preview sensor is a two-dimensional sensor array that generates image information that is responsive to light reflected from said document, said image information being generated in parallel.
4. The document scanning system of claim 3 wherein said two-dimensional sensor array remains in a fixed position relative to said document scanning surface while said image information is being generated by said two-dimensional sensor array, said two-dimensional sensor array being sufficiently large to generate said image information for an entirety of said document while said two-dimensional array remains in said fixed position.
5. The document scanning system of claim 2 wherein said document image previewing means includes a processing unit that generates image area display signals representing an outline of an image area on said display device relative to said document image.
6. The document scanning system of claim 1 wherein said position previewing means includes a processing unit that generates image area display signals that represent an outline of an image area for said electronic copy generating means, said display signals being transferred to said display device.
7. The document scanning system of claim 1 wherein said electronic copy generating means is operatively associated with a printing means, said printing means enabling generation of a copy of said document on a copy medium.
8. The document scanning system of claim 1 wherein said electronic copy generating means includes an electronic scanner having a linear sensor array that is dedicated to image scanning and separate from said preview sensor, wherein said electronic scanner generates an electronic copy of said document image.
10. The document scanning system of claim 9 wherein said dedicated electronic preview sensor is a two-dimensional array of sensor elements that generate image information from said document image, and wherein image signals that are responsive to said image information are displayed on said display device relative to said defined image area.
11. The document scanning system of claim 10 wherein said image signals are adjusted by a processing unit to account for magnification or reduction of said document image.
12. The document scanning system of claim 10 wherein said dedicated electronic preview sensor is automatically refreshed at least four times per second, thereby enabling real-time display of said position of said document relative to said defined image area.
13. The document scanning system of claim 10 wherein said dedicated electronic preview sensor is automatically refreshed at least twenty-four times per second, thereby enabling real-time display of said position of said document relative to said defined image area.
14. The document scanning system of claim 10 wherein said defined image area is related to the size of paper that is to be utilized for each scan operation.
15. The document scanning system of claim 9 wherein said electronic preview system includes a light source that is dedicated to said electronic preview system and oriented to direct light at said document scanning surface.
16. The document scanning system of claim 9 wherein said electronic preview system includes dedicated preview optics located between said document scanning surface and said dedicated preview sensor along an optical path of said reflected light.
17. The document scanning system of claim 9 wherein said electronic preview system includes a processing unit connected to receive sensor output signals from said dedicated preview sensor and to output preview display signals to said display device.
18. The document scanning system of claim 17 wherein said preview display signals are generated by said processing unit in partial response to image magnification or image reduction.
20. The system of claim 19 further including means for refreshing said dedicated preview sensor at least four times per second.

This is a continuation of application Ser. No. 09/299,690, filed on Apr. 26, 1999 now U.S. Pat. No. 6,157,439.

The invention relates to document scanning systems, and more particularly to a scanning system that includes document previewing.

Copying or scanning a document on a copy or scanning system typically involves placing a document (either manually or automatically) in contact with an image capture surface. Because most copy machines and scanners accommodate different size documents, the image capture surface is usually larger than a typical 8.5 inch×11 inch (215.9 mm×279.4 mm) piece of paper. As a result of the large image capture surface, documents can be placed on the image capture surface in positions that do not correspond to the particular location required for copying or scanning, which will be referred to herein as the "image area." Documents located in the wrong position on the image capture surface result in unacceptable images that are usually discarded, wasting time and resources.

Properly locating a document on an image capture surface is further complicated when features such as magnification or reduction are utilized. When magnification or reduction features are utilized, it is difficult to determine exactly how the document fits within the actual image area, and it is difficult to determine how images on the document will appear.

In order to determine the appearance of an image before a scanned image or a copy is actually generated, it would be advantageous to have a system that enables document previewing. In conventional photo-copiers, document copying is accomplished by illuminating a document and then directing reflected light from the document onto a photosensitive belt or platen. Changes in electrical charge on the photosensitive belt or platen are then utilized to transfer toner to a new piece of paper. While conventional copiers work well for their intended purpose, they do not include sensing hardware that can be easily utilized for document previewing.

In addition to conventional copiers, systems have been developed that utilize electronic imaging techniques to copy images from documents. Systems utilizing electronic imaging have been equipped with document previewing capability. Known copy systems with document previewing capabilities are disclosed in U.S. Pat. No. 4,656,524, entitled "Electronic Imaging Copier," issued to Norris et al., and U.S. Pat. No. 4,656,525, entitled "Electronic Imaging Copier," issued to Norris. Both copiers of Norris utilize a photo responsive device such as a linear charged coupled device (CCD) array to capture an electronic image of the target document. The scanned, electronic image is utilized to print a copy of the target document. The electronic image is captured by passing the linear CCD array by the document in a line-by-line manner.

Previewing a document with the Norris copiers involves scanning the document with a linear CCD array to create electronic image data and then displaying the electronic image data on a display device. The Norris copiers utilize the same scanning hardware for document previewing as is used for document copying. While the previewing feature of Norris works well for its intended purpose, previewing a document utilizing the same scanning hardware as is used for document copying requires a line-by-line scan of the document. The mechanical movements required for line-by-line scanning are time consuming and prevent real-time previewing of the target document.

Known preview systems have also been applied in image scanners that are used to create an electronic copy of a document. For example, an image scanner that includes a preview system is disclosed in U.S. Pat. No. 4,837,635, entitled "A Scanning System in which a Portion of a Preview Scan Image of a Picture Displaced on a Screen is Selected and a Corresponding Portion of the Picture is Scanned in a Final Scan," issued to Santos and assigned to the assignee of the present invention. In Santos, the scanner can perform either a preview scan or a final scan. The preview scan is simply a lower resolution version of the final scan. Again, the same scanner hardware is utilized to perform the preview scan or the final scan. Whether the scanner is performing a preview scan or a final scan, the scanner hardware must sweep across the document in a line-by-line manner to capture the electronic image data. Although the preview system of Santos works well for its intended purpose, the time required to scan a document limits the ability to provide real-time previewing.

As a result of the drawbacks regarding prior art preview systems, what is needed is a preview system that can display a document located on an image capture surface without utilizing the document reproduction hardware, and what is needed is a preview system that can display a document in real-time.

A document scanning system includes a preview sensor that is dedicated to document previewing and distinct from any other sensor that is involved in the document capture process. In one embodiment, the preview sensor is a two-dimensional sensor array that captures the outline of an entire document using parallel processing. The captured document outline is previewed on a display device to determine its position relative to an actual image area that is defined by the scanning system. In an enhanced embodiment of the system, the preview sensor captures an image that is on the document in addition to the outline of the document, so that the image of the document is also previewed relative to the image area. Providing a dedicated preview sensor that captures document position and image data in parallel enables real-time display of a document relative to the image area.

The document scanning system having the document previewing capability includes an image capture surface (i.e., a document scanning surface), a scanner system, a preview system and a display device. The image capture surface is preferably a conventional glass platen, as utilized in conventional photocopy machines and conventional document scanners. The image capture surface is transparent and provides a surface on which the desired document is placed for creating paper or electronic copies. Typically, the image capture surface is integrated with a cover that improves illumination of a document during copying or scanning.

The document scanning system may include a conventional scanner system, or a hybrid copy system that combines document scanning and printing to produce document copies. The conventional scanner system includes a light source and a linear photosensor array. In operation, a document placed on the image capture surface is illuminated and the linear photosensor array is scanned across the document to create an electronic copy of an image. The electronic copy of the image can then be stored in memory, displayed, printed and/or edited. As described above, known previewing techniques utilize a low resolution scan with the linear photosensor array to create a preview image.

The hybrid copy system combines electronic scanning and printing to copy a document. In the hybrid copy system, the document is scanned to create electronic image data. The electronic image data is used to drive a printer, such as a laser printer, to create a copy of the document that is located on the image capture surface.

Regardless of the type of system that is utilized to make document copies, a dedicated preview system is provided that operates in addition to the scanner system. In an embodiment, the preview system is a combination of hardware and software that is independent of the scanner system. The preview system displays, on the display device, the outline of a document that is placed on the image capture surface. In one embodiment, the outline of the document is displayed relative to an outline of the actual image area of the scanner system. In another embodiment, the preview system displays the image of the document relative to the actual image area in addition to the display of the outline of the document relative to the actual image area.

An embodiment of the preview system includes the image capture surface, a light source, optics, a preview sensor, a processing unit, and the display device. The light source provides light to the image capture surface in order to illuminate a document that is located on the image capture surface. The intensity of light required by the light source depends on whether or not the preview system is configured to display the outline of a document or the image on the document in addition to the outline of the document.

The optics preferably include a wide angle lens that enables optical energy from the entire image capture surface to be directed to the preview sensor. The display device is preferably an LCD display device that is integrated with the scanner system.

The preview sensor is dedicated to the previewing system and is separate from the sensors that are utilized in the scanner system for scanning. In an embodiment, the preview sensor includes a two-dimensional photosensor array that can capture an entire image in parallel without scanning across the image capture surface. The preview sensor is operated at a refresh rate of greater than four frames per second, and preferably greater than twenty-four frames per second, in order to display a real-time representation of the document relative to the image area. The preview sensor can be fixed with respect to the image capture surface. However, the sensor may be movable in order to accommodate for features such as enlarging or reducing.

The processing unit is preferably a hardware and software system that receives signals from the preview sensor and transforms the signals into display signals that are compatible with the display device. The processing unit can also take into account paper size and magnification or reduction in order to display a representation of the image area and the target document on the display device. The processing unit can be dedicated to the preview system or the processing unit can be shared with the scanner system.

In operation of the preview system, a document is placed on the image capture surface and the document is illuminated by the light source. Light reflected from the document is captured by the preview sensor and the preview sensor transmits image signals to the processing unit. The processing unit generates display signals and a representation of the document is displayed on the display device. The representation of the document displayed on the display device is shown relative to the image area of the scanner system. If the document is moved on the image capture surface, then the movement is shown on the display device, preferably in real-time. If the scanner system is programmed to generate a magnified copy of the original document, then a magnified version of the document is displayed on the display device relative to the image area of the scanner system. Similarly, if the scanner system is programmed to generate a reduced copy of the original, then a reduced image of the original document is displayed on the display device relative to the outline of the image area. Once the document is satisfactorily positioned on the image capture surface, as indicated by the preview system, the scanning system is utilized to generate a copy, either printed or electronic, of the document.

Because the preview system has a dedicated preview sensor, the preview sensor can be a lower resolution two-dimensional sensor array that captures images of the entire document in parallel without having to mechanically scan across the document. Capturing images of an entire document in parallel enables the preview system to display an image of the document in real-time, or near real-time. Real-time previewing enables a user to quickly preview a document while making subtle adjustments in order to generate a desired copy on the first attempt.

FIG. 1 is a depiction of a preferred document scanning system with document previewing capabilities in accordance with the invention.

FIG. 2 is a depiction of a preferred preview system in accordance with the invention.

FIG. 3 is a top view of an exemplary document scanning system that includes document previewing in accordance with the invention.

FIG. 4 is a depiction of an exemplary document that is printed on 8.5 inch by 11 inch (215.9 mm×279.4 mm) paper.

FIG. 5A is a depiction of a document in a standard position on an image capture surface.

FIG. 5B is a depiction of the display of the document shown in FIG. 5A relative to the image area in accordance with the invention.

FIG. 6A is a depiction of a document in a lowered and to the right position on an image capture surface.

FIG. 6B is a depiction of the display of the document shown in FIG. 6A relative to the image area in accordance with the invention.

FIG. 7A is a depiction of a document in a rotated position on an image capture surface.

FIG. 7B is a depiction of the display of the document shown in FIG. 7A relative to the image area in accordance with the invention.

FIG. 8A is a depiction of a document in a standard position on an image capture surface.

FIG. 8B is a depiction of the display of an enlarged version of the document shown in FIG. 8A relative to the image area in accordance with the invention.

FIG. 9A is a depiction of a document in a standard position on an image capture surface.

FIG. 9B is a depiction of the display of a reduced version of the document shown in FIG. 9A relative to the image area in accordance with the invention.

An embodiment of a document scanning system 10 is depicted in FIG. 1. The document scanning system includes an image capture surface 12, a scanner system 14, a preview system 16, and a display device 18. As shown, the image capture surface may generate a printed copy 20 of a document, or an electronic copy 22 of a document. The elements of the document scanning system are described first, followed by a description of the system operation.

The image capture surface 12 (i.e., document scanning surface) is preferably a conventional glass platen as utilized in conventional photocopy machines and conventional document scanners. The image capture surface is transparent and provides a surface on which the desired document is placed for copying or scanning. Typically, the image capture surface is integrated with a cover that improves illumination of a document during copying or scanning. Documents can be manually placed on the image capture surface, or in systems with automatic document feeders, documents can be automatically placed on the image capture surface.

The scanner system 14 includes a conventional scanner system, or a hybrid copy system that combines document scanning with printing to produce document copies. The conventional document scanning system includes a light source and a linear photosensor array. In operation, a document located on the image capture surface is illuminated and the linear photosensor array is scanned across the document to create an electronic copy of the image that is on the document. Electronic image data is collected during scanning in a line-by-line manner, with the resolution of the image depending on the number of lines that are scanned within a given distance during movement in the vertical direction and the density of pixel information that is generated relative to the horizontal direction. Electronic image data representing the scanned document can readily be stored in memory, displayed, printed, and/or edited.

The hybrid copy system combines electronic scanning and printing to copy a document. In the hybrid copy system, a document is scanned to create electronic image data. Electronic image data is then used to drive a printer, such as a laser printer, to create a copy of the document that is located on the image capture surface.

In an embodiment, the preview system 16 is a combination of hardware and software that is substantially separate from the scanner system 14. The preview system displays, on the display device 18, the outline of a document that is placed on the image capture surface 12. In an embodiment, the outline of the document is displayed relative to an outline of the actual image area of the scanner system. In another embodiment, the preview system displays the image of the document relative to the actual image area in addition to the outline of the document. The display device is preferably an LCD display device that is integrated with the scanner system, although other types of display devices, such as CRT displays, are possible. For example, the display device may be the display device of a personal computer that is connected to a scanner. The structure of the preview system is described in more detail with reference to FIGS. 2 and 3, and examples of the operation of the preview system are described with reference to FIGS. 4 through 9. It should be noted that while the detailed description primarily describes embodiments relating to copy machines, implementation of the invention is also contemplated with scanners and hybrid scanner/copier machines.

Referring to FIG. 2, an embodiment of the preview system 16 includes the image capture surface 12, a light source 28, optics 30, a preview sensor 32, a processing unit 34, and the display device 18. The light source provides light to the image capture surface in order to illuminate a document that is located on the image capture surface. The intensity of light required by the light source depends on whether or not the preview system is configured to display the outline of a document or the image on the document in addition to the outline. In an embodiment, the light source is preferably dedicated to the preview system, although the light source may be shared with the scanner system 14 in some embodiments.

The optics 30 preferably include a wide angle lens that enables optical energy from the entire image capture surface to be directed to the preview sensor 32. In an embodiment, the optics are dedicated to the preview system 16, although the optics may be shared with the scanner system 14 in some embodiments. Although optics are utilized in the embodiment, optics are not critical.

The preview sensor 32 may include a two-dimensional photosensor array that can capture an entire image up to the size of the image capture surface 12. Thus, the preview sensor can capture an entire image in parallel without being "scanned" across the image capture surface. The preview sensor is dedicated to the previewing system and as shown in FIGS. 1 and 2, the preview sensor is separate from any sensors that are utilized in the scanner system 14 for copying and/or scanning. In one embodiment, the preview sensor is a CCD array that is operated at a refresh rate of greater than four frames per second, and preferably greater than twenty-four frames per second, in order to display a "real-time" representation of the document relative to the image area. In one embodiment the preview sensor is fixed with respect to the image capture surface. However, in other embodiments, the sensor may move to accommodate features such as enlarging or reducing.

Typically, the processing unit 34 is a hardware and software system that receives signals from the preview sensor 32 and transforms the signals into display signals that are compatible with the display device 18. The processing unit may also generate the display signals for the image area of the scanner system 14. That is, the processing unit takes into account paper size and magnification or reduction, in order to display a representation of the image area on the display device. The processing unit can also be configured to support the optics 30 in order to, for example, provide a higher resolution display of a document image through electronic manipulation. The processing unit can be dedicated to the preview system 16 or the processing unit can be shared with the scanner system 14.

FIG. 3 is a top view of an exemplary copy system 40 that includes document previewing. As described above, the image capture surface 42 is a glass platen upon which a document is placed face down. The display device 44 is preferably an LCD display that is integrated into the top surface of the copy system. The top surface of the copy system also includes a control panel 46 which is used to operate the copy system. In addition, although not shown, the copy system preferably includes a cover that fits over the image capture surface in order to improve illumination of documents. The cover may include an automatic document feeder that positions documents on the image capture surface. In embodiments involving document scanners, the display device may not be integrated into the scanner. For example, the display device may be the CRT monitor of a personal computer.

In operation, a document is placed on the image capture surface 12 of the preview system 16 of FIGS. 1 and 2 and the document is illuminated by the light source 28. Light reflected from the document is directed onto the preview sensor 32 by the optics 30. The preview sensor captures the reflected light and generates electrical signals which are transmitted to the processing unit 34. The processing unit generates display signals from the electrical signals and a representation of the document is displayed on the display device 18. Preferably, the document is displayed relative to the image area of the associated scanner system 14.

FIGS. 4 through 9 are examples that help describe the operation of the preview system 16 that is integrated into a document scanning system 10 as shown in FIGS. 1 through 3. FIG. 4 is a depiction of an exemplary document 50 that consists of a standard 8.5 inch by 11 inch (215.9 mm×279.4 mm) piece of paper. An "A" is printed approximately in the center of the paper. The document shown in FIG. 4 is utilized in FIGS. 5 through 9 to describe the operation of the preview system.

Referring to FIG. 5A, the document 50 shown in FIG. 4 is placed on the image capture surface 42 which is similar to the image capture surface that is shown in FIG. 3. Although the A is visible on the document as shown in FIG. 5A for explanation purposes, in most applications the A will be face down on the image capture surface such that the A, also referred to as the image, is not visible to a user. FIG. 5B is a depiction of the display device 44 as shown in FIG. 3 that includes a preview of the document that is located on the image capture surface as shown in FIG. 5A. The image area 54 within the display device is identified by the dashed-line box. In the example of FIGS. 5A and 5B, the document is an 8.5 inch by 11 inch piece of paper and the image area shown on the display device represents an 8.5 inch by 11 inch piece of paper. If the paper size were changed, the image area would be changed accordingly. In FIG. 5A, the document is aligned on the image capture surface in a position that coincides with the image area, and thus in FIG. 5B the document outline 52 is displayed by the preview system as being entirely within the image area.

It should be noted that in the examples described with reference to FIGS. 5 through 9, the image on the document 50, in addition to the outline of the document, is previewed on the display device 44. However, in another embodiment, only the outline of the document is displayed relative to the image area 54. Displaying only the outline of the document would enable the use of a lower resolution preview sensor and less illumination. All of the examples described with reference to FIGS. 5 through 9 can be implemented with the document outline only.

FIG. 6A depicts the document 50 in a different position on the image capture surface 42. In FIG. 6A, the document is moved down and to the right relative to the image capture surface. FIG. 6B depicts the display of the document relative to the image area 54. As shown in FIG. 6B, the outline 52 of the document and the image of the document are shifted down and to the right relative to the identified image area. If a copy operation is initiated with the document in the position as shown, only the upper left corner of the document would be copied. By displaying the image of the document relative to the image area utilizing the preview system, undesired positioning can be corrected before a copy or scan operation is initiated.

In an embodiment, the preview system 16 operates in real-time, such that motion of the document relative to the image capture surface is displayed on the display device. For example, a user can adjust the position of the document on the image capture surface 12 and 42 while obtaining realtime feedback until the document is positioned properly. Providing real-time previewing saves time, especially when compared to the time that would be required to scan the document utilizing the scanner system upon each position change.

FIG. 7A depicts the document 50 after being rotated 90°C relative to the position of the document in FIG. 5A. FIG. 7B depicts the display of the rotated document relative to the image area 54. As shown in FIG. 7B, the outline 52 of the document and the image of the document are rotated 90°C relative to the identified image area. Because the image area remains in the "portrait" layout and because the document is now in the "landscape" layout, portions of the document fall outside of the image area. Initiation of a print operation will print only the portion of the document that is within the identified image area.

FIG. 8A depicts the document 50 in the same position as in FIG. 5A, however, the document scanning system has been programmed to enlarge, or magnify, the document before copying or scanning. FIG. 8B depicts the display of the enlarged document outline 52 and the enlarged document image relative to the image area 54. As shown in FIG. 8B, the enlarged document outline and the enlarged document image extend beyond the image area. If a copy of the document is created with the document positioned as shown in FIG. 8A, some portions of the document image will not be included in the copy. In an embodiment, corrections for magnification are made by the preview system and displayed in real-time so that the magnification can be precisely adjusted before a copy or scan operation is initiated.

FIG. 9A depicts the document 50 in the same position as in FIG. 8A, however, the document scanning system has been programmed to reduce, or shrink, the document before copying or scanning. FIG. 9B depicts the display of the reduced document outline 52 and the reduced document image relative to the image area 54. As shown in FIG. 9B, the entire document fits within the image area and thus will be included in a copy or scan operation. As with enlargements, changes in the reduction are preferably displayed in real-time by the preview system. In both cases of enlargement or reduction, motion in the x and y planes of the image capture surface is preferably displayed in real-time. In one embodiment, the preview system can be directed to automatically adjust the magnification or reduction of a document and/or an image so that the document and/or image utilize the entire image area.

The type of preview sensor 32 utilized in the preview system depends on the level of display resolution that is desired. For example, a simple one bit preview sensor array can be used to sense the outline of a document or to sense the document outline in addition to a low resolution image. A preview sensor array with higher resolution can be utilized to distinguish levels of grayscale. Color filters can also be utilized to provide color previewing if desired. The preview system can be configured to allow a user to select the level of resolution and to select whether only the document outline will be displayed or whether the document image will also be displayed.

If the previewing of only the document outline is required, ambient light may serve as the light source. Utilizing ambient light is appropriate when the cover of the document scanning system is up, exposing the image capture surface.

Rousseau, Paul, Robuck, Daniel

Patent Priority Assignee Title
6697091, Jan 19 2000 Xerox Corporation Systems, methods and graphical user interfaces for indicating a desired original document orientation for image capture devices
6850259, Jan 19 2000 Xerox Corporation Systems and methods for providing original document orientation, tone reproduction curves and task specific user instructions based on displayed portions of a graphical user interface
7065716, Jan 19 2000 Xerox Corporation Systems, methods and graphical user interfaces for previewing image capture device output results
7110152, Aug 31 2001 HEWLETT-PACKARD DEVELOPMENT COMPANY L P Virtual scanning from a scanned image preview
7929185, Mar 25 2002 Intellectual Ventures I LLC System and method for switching screens from overview and preview
7941750, Oct 11 2001 HEWLETT-PACKARD DEVELOPMENT COMPANY L P Method and system for defining separate print quality regions within a print job
8532434, Jun 15 2009 Sharp Kabushiki Kaisha Image processing method and apparatus for determining orientations based on reliabilities of a plurality of portions into which image has been divided or for determining orientations of portions of image divided by user's input so as to recognize characters for each divided portion of image, image forming apparatus, and storage medium
8537443, Jun 23 2008 Sharp Kabushiki Kaisha Image processing apparatus, image forming apparatus, image processing method, and storage medium
8699091, Dec 29 2010 CHINA CITIC BANK CORPORATION LIMITED, GUANGZHOU BRANCH, AS COLLATERAL AGENT System for previewing and imaging documents
8913256, Mar 27 2011 CHINA CITIC BANK CORPORATION LIMITED, GUANGZHOU BRANCH, AS COLLATERAL AGENT Method and system for performing an imaging function by an imaging device
9106778, Apr 15 2011 CHINA CITIC BANK CORPORATION LIMITED, GUANGZHOU BRANCH, AS COLLATERAL AGENT Device and method for determining presence of a document to be imaged and providing a preview of the document
D711402, Mar 30 2012 Microsoft Corporation Display screen with graphical user interface
D764542, Jul 03 2014 SIEMENS SCHWEIZ AG Portion of a display screen with icon
Patent Priority Assignee Title
4174175, Apr 22 1977 Copy preview apparatus
4837635, Jan 22 1988 Hewlett-Packard Company A scanning system in which a portion of a preview scan image of a picture displaced on a screen is selected and a corresponding portion of the picture is scanned in a final scan
4914475, Nov 28 1986 Mita Industrial Co., Ltd. Editing area setting method and editing area setting apparatus in an image forming apparatus
5049932, Feb 10 1989 Ricoh Company, Ltd. Copier having an editing function
5086317, Nov 28 1986 Mita Industrial Co., Ltd. Editing area setting method and editing area setting apparatus in an image forming apparatus
5119135, Aug 01 1991 Xerox Corporation Selectively variable image positioning system for use in electrophotographic copying apparatus
5327261, Apr 29 1989 MINOLTA CAMERA KABUSHIKI KAISHA, A CORP OF JAPAN Image reading apparatus capable of detecting paper size
5710967, Jul 12 1996 Ricoh Corporation Apparatus which indicates to a user the proper placement of pages to be scanned
5966503, Dec 09 1994 OCE-TECHNOLOGIES, B V Digital copying/printing apparatus and method for assembling a set of images
6222545, Mar 28 1995 Canon Kabushiki Kaisha Image processing apparatus and method
//
Executed onAssignorAssigneeConveyanceFrameReelDoc
Oct 10 2000Hewlett-Packard Company(assignment on the face of the patent)
Jan 31 2003Hewlett-Packard CompanyHEWLETT-PACKARD DEVELOPMENT COMPANY, L P ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS 0269450699 pdf
Date Maintenance Fee Events
Apr 17 2006M1551: Payment of Maintenance Fee, 4th Year, Large Entity.
Apr 15 2010M1552: Payment of Maintenance Fee, 8th Year, Large Entity.
May 23 2014REM: Maintenance Fee Reminder Mailed.
Oct 15 2014EXP: Patent Expired for Failure to Pay Maintenance Fees.


Date Maintenance Schedule
Oct 15 20054 years fee payment window open
Apr 15 20066 months grace period start (w surcharge)
Oct 15 2006patent expiry (for year 4)
Oct 15 20082 years to revive unintentionally abandoned end. (for year 4)
Oct 15 20098 years fee payment window open
Apr 15 20106 months grace period start (w surcharge)
Oct 15 2010patent expiry (for year 8)
Oct 15 20122 years to revive unintentionally abandoned end. (for year 8)
Oct 15 201312 years fee payment window open
Apr 15 20146 months grace period start (w surcharge)
Oct 15 2014patent expiry (for year 12)
Oct 15 20162 years to revive unintentionally abandoned end. (for year 12)